Kwok Chu George Wong scite author profile

Kwok Chu George Wong

4Publications

50Citation Statements Received

223Citation Statements Given

How they've been cited

How they cite others

199

213

Affiliations

Chinese University of Hong Kong, Prince of Wales Hospital

Publications

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Microglial activation and polarization after subarachnoid hemorrhage

Zheng¹,

Wong²

2019

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Subarachnoid hemorrhage (SAH) is a devastating stroke type, with high mortality and morbidity. The neuroinflammatory response evolves over time from early brain injury to delayed cerebral deterioration. Microglia, the resident immune cells of the central nervous system, respond to the acute brain injury through activation and polarization. Microglia are able to polarize along two pathways, classic M1 and alternative M2, towards tissue injury and tissue repair respectively. The modulation of microglial activation has gained appreciation as a means to prevent the detrimental effects. In this review, we describe the progression of microglial polarization after SAH and summarize the key studies on mediators of microglial activation, including M1 and M2 specific microglial markers, transcription factors and key signaling pathways. Interactions between microglia and other cells are critical in modulating microglial activation and function, which are discussed as well. The preclinical application of microgliadependent treatments is presented, aiming for a better understanding of modulating microglial function and suggesting future investigation for therapeutic approaches.

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Single-cell analysis of microglial transcriptomic diversity in subarachnoid hemorrhage

CHEN

Sun

Lyu

et al. 2021

Preprint

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Background: Subarachnoid hemorrhage (SAH) is a severe stroke and the advanced treatment for SAH is still limited. Recent studies have shown that microglia-mediated neuroinflammation plays a critical role in the pathogenesis of SAH. Microglia can transform their states in response to central nervous system injury. However, the transcriptomic features of microglia remained unknown in SAH. Recent developed single-cell RNA sequencing (scRNA-seq) provides a possible way to solve this problem. Methods: Endovascular perforation (EVP) murine SAH model was established to reproduce experimental SAH. Microglia states are examined with immune staining and quantitate analysis. Post-SAH microglial single-cell suspension were harvest and sequenced using 10X scRNA-seq platform. Then, the detailed single-cell transcriptomic characterization of post-SAH microglia were analyzed with bioinformatics. Results: Transcriptional analysis revealed at least ten diverse microglial subgroups, including SAH-associated microglia (SAM), inflammatory-associated microglia (IAM) and proliferation-associated microglia (PAM), which all exhibit distinct marker gene expression patterns. Microglia subsets interaction reveals the functional relationship between elevated signaling pathways and microglial sub-populations in SAH. Receptor-ligand pair analysis revealed that complex inter-cellular interactions exist between the microglia subsets and other cell types, and indicated that microglia are important mediators of neuroinflammation after SAH. Integrated analysis with normal microglia further proved the existence of these microglia subpopulations and different gene markers associated with SAH were clarified. Conclusions: Collectively, we first report the single-cell transcriptome of post-SAH microglia and found specific biomarkers related to the neuroinflammation in SAH. These results enhanced our understanding of the pathological mechanisms of microglial response to SAH, and may guide future development of SAH monitoring methods and therapeutics.

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Endovascular Perforation Murine Model of Subarachnoid Hemorrhage

Lü

Zheng

et al. 2016

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Subarachnoid hemorrhage (SAH) is a subtype of stroke with disastrous outcomes of high disability and mortality. A variety of endeavors have been developed to explore a SAH animal model for investigation of the disease. Among these models, the endovascular perforation SAH model was considered to be the most simulative to the clinical human SAH because it reproduces several pathophysiology procedures and presents some of the most important post-hemorrhage features. An applicable SAH animal model should have the characteristics of low mortality rate, limited surgical manipulation, and adaptation to many species, which permits reproducibility and standardization. An intensive discussion of how to improve the techniques and refine the procedure has taken place in the last decade. This report describes our experiences with a murine model of SAH. We aim to standardize and optimize the procedures to establish a relatively stable animal model for SAH research.

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The Time Course of Cognitive Deficits in Experimental Subarachnoid Hemorrhage

Zheng

Lam

Poon

et al. 2019

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